Scientific Frontline® On-Site Search Engine by Google Co-op
Current UTC Time
 
News Home, where you will find the "Current Top Stories"The Communication Center contains current news briefs from major Universities, NASA, ESA, and the top three Aviation Mfg.Science section contains all the latest knowledge in Medical Research, Archeology, Biology, and other General Science NewsThe latest in Computer, Nanotechnology, and General Technological advancements.The latest in Aviation achievements in civil, military, and space aviationCurrent Earth Science and Environmental discoveries.The E.A.R., Environmental Awareness Report. E.A.R. will keep you advised of Environmental Alerts, Government, University, and public projects. The World News Report, news from the Voxant Viral Syndication, known as the Newsroom. Contains the latest videos from major news sources.All the current space discoveries from Hubble, Spitzer, Chandra X-Ray, ESO, Gemini, Subaru, ESA, NASA, and many more. The latest in space theories from leading astronomers and scientist from around the world.The Space Weather Forecast Center by Scientific Frontline, Current up-to-date space weather, forecasts, alerts and warnings. Images from SOHO, GOES, and STEREOThe Cassini Main Page. Containing all the latest news from the Cassini Spacecraft around Saturn. Leading into Cassini status reports, The Cassini Gallery of all the latest images from Cassini. Seeing Saturn and all her moons like never before.The International Space Station Main Page. Containing all the latest news from the ISS. Leading into ISS status reports, The ISS Gallery of all the latest images from the ISS. Cloudy Nights Telescope Reviews / An Atronomical CommunityStellar Nights, A Journey Into The Stars from Scientific Frontline. A collection of informative facts about stellar objects in our universe.Daily Sky maps, Celestial Events Calendar, and Reports from the PCW Memorial Observatory by Erika RixListing of Current potential impacts from (NEO'S) Near Earth objects as detected by the NASA / JPL Sentry SystemThe news archive from Scientific Frontline's past articles. A world of knowledge at your fingertips.Abstracts, Journals, and Technical papers maintained by Scientific Frontline. The Scientific Frontline Gallery, containing photographs, sketches, and video's of Space, Science, Aviation, and Environment. Open to the public to comment and contribute.The Scientific Frontline Discussion Rooms. Open to the public.Site Related links from major universities, government and private research labs.The link page of the web rings Supported and maintained by Scientific Frontline.Assorted Downloads related to space, science, aviation, including screensavers and ASTROMONY SOFTWARE, and other endorsed programs.The foundation of an online publication by SFL ORG. News Network called Scientific FrontlineContact page to Scientific Frontline / SFL ORG. News NetworkDisclaimer / Legal Notice for use of the SFL ORG. News Network's publication Scientific Frontline
an online publication of the SFL ORG. Educational News Network

 
INTEGRAL Mission News

Integral: Stellar winds colliding at our cosmic doorstep

Wednesday, February 20, 2008
Video Version: WMV 14MB
Colliding-Wind Binary
More Information ROLLOVER

Credits: ESA (Animation by C. Carreau)
ESA’s Integral has made the first unambiguous discovery of high-energy X-rays coming from a rare massive star at our cosmic doorstep, Eta Carinae. It is one of the most violent places in the galaxy, producing vast winds of electrically-charged particles colliding at speeds of thousands of kilometers per second.
 
The only astronomical object that emits gamma-rays and is observable by the naked eye, Eta Carinae is monstrously large, so large that astronomers call it a hypergiant. It contains between 100–150 times the mass of the Sun and glows more brightly than four million Suns put together. Astronomers know that it is not a single star, but a binary, with a second massive star orbiting the first.

It has long been suspected that such massive binary stars should give off high-energy X-rays, but until now, the instruments required for the observations were lacking. Recently, Integral has conclusively shown that Eta Carinae gives off high-energy X-rays, more or less in agreement with theoretical predictions.

The intensity of the X-rays is a little lower than we expected, but given that this is the first-ever conclusive observation, that’s okay,” says Jean-Christophe Leyder of the Institut d’Astrophysique et de Géophysique, Université de Liège, Belgium.

Hi-Res Version
Eta Carinae, as seen by Integral
More Information ROLLOVER

Credits: ESA/ Integral (Leyder et al.)
The high-energy X-rays come from a vast shockwave, set up and maintained between the two massive stars. The shockwave is produced when the two stars’ stellar winds collide, creating a system that astronomers term a colliding-wind binary. Massive stars are constantly shedding particles that are ‘blown’ away into space by the effect of light and other radiation given off by the star.

This starlight is so fierce that the stellar winds can reach speeds of 1500–2000 km/s. With two massive stars in close proximity, as they are in the Eta Carinae system, the winds collide and set up fearsome shockwaves where temperatures reach several thousand million degrees Kelvin. “It’s a very tough environment,” says Leyder.

Electrically-charged particles called electrons get caught in the magnetic environment of the shockwaves, bouncing back and forth and being accelerated to huge energies. When they finally burst out of the shockwave, they collide with low-frequency photons and give them more energy, creating the emission that Integral has seen. Understanding this emission is important because astronomers believe that it lies at the heart of many diverse phenomena in the universe. Stellar winds have profound implications on the evolution of stars, the chemical evolution of the universe and as a source of energy in the galaxy.

Hi-Res Version
This is an image of the Carina Nebula as seen by the Hubble space telescope. The location of Eta Carinae is indicated.


Credits: NASA, ESA, UCB (N. Smith), STScI/AURA (The Hubble Heritage Team)
Massive stars are rare, so two in a binary system is even rarer. “In our galaxy, there are probably only 30-50 colliding-wind binaries that display a clear signature of wind-wind collision,” says Leyder. A year ago, ESA’s XMM-Newton saw X-rays from the colliding wind binary, HD 5980, situated in the neighboring galaxy, the Small Magellanic Cloud.

Integral covers a different, higher energy range in X-rays than that covered by XMM-Newton. This is why it was able to detect the more energetic X-rays emitted by Eta Carinae. Based on observations, scientists have learnt that the Eta Carinae system loses one Earth mass per day, which is roughly 140 times higher than the mass loss rate in HD 5980.

To have a rare, massive binary star such as Eta Carinae virtually at our cosmic doorstep at 8000 light-years, close enough to be observable in detail, is a stroke of luck. Now that they know what to look for, astronomers will continue searching for other examples of colliding wind binaries emitting high-energy X-rays further afield.

Source: ESA

AddThis Social Bookmark Button

Scientific Frontline®
The Comm Center
Space Weather Alerts
Stellar Nights®
The E.A.R.®
World Report News
Photo, Sketches, & Video Gallery
New Scientific Riches From Integral Integral Reveals Exotic and Dusty Binary Systems Navigate Back or Forward Through INTEGRAL Missions News, or Pick an Article From The News Ticker.

Scientific Frontline®
Is supported in part by Readers Like You


Scientific Frontline®, Stellar Nights®, E.A.R.®, and Environmental Awareness Report®”
Are Registered Trademarks of the
Online Publication of the SFL ORG. Educational News Network
Oklahoma City, Oklahoma USA
A Not-for-Profit Educational News Service
© 2005 - 2008 All Rights Reserved